Quasicrystals and quasicrystal-related phases in the AlMn system

L.A. Bendersky
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引用次数: 15

Abstract

The AlMn system is very rich in phases with composition close to Al4Mn. As solidification conditions change from very slow (casting) to extremely fast (atomized submicron-size droplets) the following phases will form: hexagonal μ phase (a = 1.995nm; c = 2.452nm), hexagonal λ phase (a = 2.841 nm; c = 1.238 nm), decagonal quasicrystal, icosahedral quasicrystal and microquasicrystalline or “amorphous” phase. In the present work, the potential interrelationship between the structures of the crystalline, quasicrystalline and amorphous Al4Mn phases is investigated by a systematic study of electron diffraction intensities. Analysis of electron diffraction intensity modulations and their spatial relationships suggests that the phases have a structural skeleton of icosahedral units, possibly of the Mackay icosahedron type. Different crystalline and quasi-periodic phases can be formed by different stackings of the same icosahedral clusters and they are not necessarily in a single orientation. The amorphous structure can be described as a network of the randomly oriented clusters.

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AlMn体系中的准晶及准晶相关相
AlMn体系相丰富,组成接近Al4Mn。当凝固条件从极慢(铸造)到极快(亚微米大小的雾化液滴)时,将形成以下相:六方μ相(a = 1.995nm;C = 2.452nm),六角形λ相(a = 2.841 nm;C = 1.238 nm)、十方准晶、二十面体准晶和微准晶或“非晶”相。在本工作中,通过系统的电子衍射强度研究了晶体、准晶和非晶Al4Mn相结构之间的潜在相互关系。电子衍射强度调制及其空间关系分析表明,这些相具有二十面体单元的结构骨架,可能是麦凯二十面体型。相同的二十面体簇的不同堆叠可以形成不同的晶体和准周期相,它们不一定在单一的取向上。非晶结构可以被描述为一个随机取向簇的网络。
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